arxiv:2510.07412

From two dimensions to wire networks in a dice-lattice Josephson array

Published on Oct 8

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Abstract

Josephson arrays with controlled weak links and plaquettes exhibit distinct switching current patterns under magnetic flux, modeled by combining ballistic junctions and diffusive plaquettes.

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We investigate Josephson arrays consisting of a dice-lattice network of superconducting weak links surrounding rhombic plaquettes of proximitized semiconductor. Josephson coupling of the weak links and electron density in the plaquettes are independently controlled by separate electrostatic gates. Applied magnetic flux results in an intricate pattern of switching currents associated with frustration, f. For depleted plaquettes, the switching current is nearly periodic in f, expected for a phase-only description, while occupied plaquettes yield a decreasing envelope of switching currents with increasing f. A model of flux dependence based on ballistic small-area junctions and diffusive large-area plaquettes yields excellent agreement with experiment.

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